INVESTIGADORES
BONETTO Carlos Alberto
artículos
Título:
Metal retention and distribution in the sediment of a constructed wetland for industrial wastewater treatment. Ecological Engineering 37: 1267 1275.
Autor/es:
G. DI LUCA; A. MAINE; M. MUFFARREGE; H. HADAD; C. BONETTO; G. SANCHEZ
Revista:
ECOLOGICAL ENGINEERING
Editorial:
ELSEVIER SCIENCE BV
Referencias:
Año: 2011 p. 1267 - 1275
ISSN:
0925-8574
Resumen:
A free water surface wetland was built in 2002 to treat wastewater from a tool factory containing metals
(Cr, Ni, Zn and Fe), nutrients and organic matter. Until 2006, the last reported period, the wetland
retained metals and stored them primarily in the bottom sediment and in the biomass of macrophytes
secondarily. The aim of this work was to study metal retention and distribution in the sediment of a
constructed wetland for industrial wastewater treatment. Total concentrations and fractions (exchangeable,
carbonate-bound, FeMn oxides-bound, organic matter-bound and residual) of metals in sediment
were analyzed in this treatment wetland, in order to estimate the fate of metals over time. Metal concentrations
were significantly higher in the inlet than in the outlet sediment; concentrations in the latter
remained without significant differences throughout the testing period. Metal concentrations and redox
potential decreased with depth within the sediment. The lowest metal concentrations and pH and the
highest redox values were attained in spring, in agreement with the period of maximum macrophyte
growth. Ni and Zn were mainly stored associated with the carbonate fraction; Cr was mainly associated
with the FeMn oxides fraction, while Fe was mainly associated with the residual fraction, probably as
pyrite. The incoming wastewater composition containing high pH, carbonate, calcium and Fe concentrations
favored the observed association in the surface sediment. It would be expected that sediment will
continue retaining metals in fractions that will not release them into the water while the chemical and
environmental conditions remain unchanged.